Inclined Plane Momentum Conservation with Frictionless Horizontal Surface

In summary, the cube sitting on a frictionless inclined plane will accelerate down the plane according to the force equation F = mgsin(theta). If the inclined plane is placed on a frictionless horizontal plane, the cube will experience a simple vertical free fall and the inclined plane will move out of its way due to Newton's Third Law. The cube is not in free fall as the incline exerts a force on it, and both the cube and the ramp will move apart horizontally in addition to the cube's vertical movement.
  • #1
leonidas24
13
0
Consider the classical physics problem of a cube sitting atop a frictionless inclined plane. Of course, this cube will accelerate down the plane with acceleration dictated by F = mgsin(theta), where theta is the angle between the inclined plane and the horizontal surface.

Easy enough.

Now, my question is this; if the inclined plane was itself sitting atop a frictionless, horizontal plane, would it too accelerate in some direction as the cube slides down its surface? In order to conserve momentum, for instance?
 
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  • #2
Just write out the force equation and that should do it. Have faith, my lad! Physics works.
 
  • #3
The cube would have a simple vertical free fall and the inclined plane would move out of its way as the cube goes down since it doesn't have any restriction.
 
  • #4
leonidas24 said:
Now, my question is this; if the inclined plane was itself sitting atop a frictionless, horizontal plane, would it too accelerate in some direction as the cube slides down its surface? In order to conserve momentum, for instance?
Of course.

jack action said:
The cube would have a simple vertical free fall and the inclined plane would move out of its way as the cube goes down since it doesn't have any restriction.
The cube is not in free fall. The incline exerts a force on it.
 
  • #5
The cube and the ramp will move apart horizontally - Newton's Third Law - in addition to the cube moving vertically.
 

Related to Inclined Plane Momentum Conservation with Frictionless Horizontal Surface

1. What is an inclined plane?

An inclined plane is a flat surface that is at an angle to the ground. It is often used to make it easier to move objects from a lower level to a higher level.

2. What is the acceleration of an object on an inclined plane?

The acceleration of an object on an inclined plane is the rate at which the object's velocity changes over time. It is affected by the angle of the incline, the mass of the object, and the force of gravity.

3. How do you calculate the acceleration of an object on an inclined plane?

The acceleration of an object on an inclined plane can be calculated using the formula: a = gsinθ, where a is the acceleration, g is the acceleration due to gravity (9.8 m/s^2), and θ is the angle of the incline.

4. Does the mass of the object affect the acceleration on an inclined plane?

Yes, the mass of the object does affect the acceleration on an inclined plane. Objects with larger masses have a greater force of gravity acting on them, which can increase their acceleration on an inclined plane.

5. How does the angle of the incline affect the acceleration of an object?

The angle of the incline directly affects the acceleration of an object on an inclined plane. As the angle increases, the acceleration decreases, and as the angle decreases, the acceleration increases. This is because a steeper incline requires more force to overcome, resulting in a slower acceleration for the object.

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